Build Yagi Antenna Wifi

How To Yagi Antenna Wifi
Build Yagi Antenna Wifi Extender

Apr 23, 2018 - Easy to Build WIFI 2.4GHz Yagi Antenna: This antenna will extend the range of your WiFi or 2.4GHz devices (like surveillance cameras) into many miles and kilometers. A yagi antenna is basically a telescope for radio waves. I tired the pringle can antenna and the Yagi beats it hands down. Easy to Build WIFI 2.4GHz Yagi Antenna: This antenna will extend the range of your WiFi or 2.4GHz devices (like surveillance cameras) into many miles and kilometers. A yagi antenna is basically a telescope for radio waves. I tired the pringle can antenna and the Yagi beats it hands dow. Easy to Build WIFI 2.4GHz Yagi Antenna: This antenna will extend the range of your WiFi or 2.4GHz devices (like surveillance cameras) into many miles and kilometers. A yagi antenna is basically a telescope for radio waves. I tired the pringle can antenna and the Yagi beats it hands dow.

This antenna will extend the range of your WiFi or 2.4GHz devices (like surveillance cameras) into many miles and kilometers. A yagi antenna is basically a telescope for radio waves. I tired the pringle can antenna and the Yagi beats it hands down in performance.

Step 1What You Need

This is an absolutely easy project.

You need an ink jet printer/ Computer

White glue

Big paper clips (you could use any stiff solid metal wire instead)

USB WIFI, preferably with an antenna extension OR a 2.4 GHz device

Sanding papers

Pliers or preferably a nibbler (see photo below, available at radio shack)

a metric ruler with millimeters or a metric caliper.

Step 2Building Overview

The building steps are simple:

1. Print out the scaled Yagi antenna template* (download from next step).

2. Trim paper clips to size and glue them to the template.

3. Use Popsicle sticks to build the antenna's backbone and hold it together.

*I used a Yagi modeler java applet to generate the diagram. This modeler applet is found on many websites (google 'yagi modeler') and its owner is W9CF.

The modeler gives a diagram and the elements' lengths and position. I carefully scaled the diagram and turned it into a template in order to make the building process easy.

You can visit AB9IL awesome website to get more details on using the modeler for this 15 element Yagi and other fine antenna projects, such as a 20 element WIFI Yagi .

Step 3Printing the Yagi Diagram

The most essential point in printing the template is getting the correct scale. In the attached zip file below, are three png picture files.

The antenna is longer than an Letter sized or A4 sized paper. So you have to print the template in two parts (labeled part1 and part2 in the zip file). I have also included the full sized unsplit template if your printer can handle large enough paper.

PRINTING:

Make sure to set your printer's properties to ORIGINAL SIZE (not 'best fit to page' ect..).

Set the print orientation to LANDSCAPE.

VERIFYING SCALE:

Use a ruler or caliper to measure if the print is of correct scale. You will notice vertical bars crossing the horizontal line. The vertical bars represent the Yagi 'elements' which will be made from paperclips. The horizontal line is the backbone of the antenna which will be build out of popsicle sticks.

You will also notice numbers next to the elements. These numbers are in pairs. The first number is the length of the element in millimeters. The second number, is the distance from the start of the diagram to the element, in millimeters.

Measure the size and position of a couple of elements on each prints. If your measurements match the numbers on the diagrams, then your print is to scale and you may proceed. Accuracy need not to be tight for the antenna to perform well.

Now superimpose both prints, until they match at around element 10 or 11, and tack them together with scotch tape or white glue.

Step 4Cutting the Paper Clips and Fixing Them

You have to trim the paper clips with a nibbler or plier to fit the vertical bars ('elements'). This is fairly straight forward. Lay the paper clip on the template's element and mark the ends with a marker. Snip at the marking.

Make sure that each element fits correctly the length of the bar on the diagram.

Fix the elements in place with crazy glue.

Leave element #2 for later. This is the element that connects to the electronics and is called 'the driven element' (as in being driven by electronics).

Step 5Building the Backbone

The backbone holds the shape of the antenna. I just cut pieces of popsicle sticks and fit them between the gaps of the elements. I used white glue to fix them in place.

Start from element #15 backward. When you arrive to element #2 move on to the next step.

Step 6Building the Driven Element

The 'driven element' in a Yagi antenna, is usually the second one from the start. It is the element that connects to the USB WIFI or 2.4 GHZ electronics.

It is a broken loop and not a straight wire. A loop of wire resonates at a specific radio frequency depending on its dimensions. The dimensions of the driven element in this antenna is set at 2.4GHz, of course.

It just happens that its about the size of a common big paper clip. You need to clip the paperclip so that it loops around and meet in the center but the end not touching, leaving a gap (see photo).

Fix it in place with crazy glue and build the back bone around it.

When all the elements and sticks are in place, reinforce the antenna with another layer of popsicle sticks. Glue full lengthed popsicle sticks on top of the antenna. The antenna should become mechanically stiff. Then rip the paper template of the antenna.

Step 7Connect the Antenna to the Wifi Modem

This is the most difficult part and depends on the electronic hardware you have. please read this step carefully.

The basic idea is that you need to solder a wire between the WiFi board's RF output and the driven element of the yagi antenna.

But USB WiFi modems come either with an internal antenna or with an external antenna. Those with external antennae, like mine, are easier to connect because you are just replacing the external whip antenna with the Yagi. Those with internal antenna may need to have their on-board strip antenna modified as illustrated in the pictures here. You need to slightly experiment in this case.

I have tried soldering a coax to my board's antenna connectors and the two ends of the yagi's active element loop but it did not work in my case. I have no explanations why that did not work, but other DIYers that have built Yagi antennae connected their antenna in this manner.

In my case, I just connected a single thin strand of copper wire between the active element of the strip antenna and one end of the loop of the driven element.

Please read the annotations of the pictures for more details.

Step 8Performance

The performance was pretty spectacular for this easy to build antenna. I was able to see the WiFi of a hotel that was 2 miles away from my home. The most difficult part was connecting the antenna to the USB modem.

A High Gain Yagi Wifi Antenna

Disclosure: AB9IL.net is a participant in the Amazon Services LLC Associates Program, an affiliate advertisingprogram such that this site earns advertising fees by linking to Amazon.com. If you make a qualifying purchase after clicking a link on this website, the associate affiliated with this site may earn a comission at no cost toyou.

UPDATED 03/29/2020: Embedded video of actual construction of the wifi yagi antenna. Removed angry rantabout ' instructables' taking my graphic without crediting ab9il.net as the source. After more than a decade, I willjust let it go and GTF on with life...

Build this wifi antenna when you want results FAST and have just a few inexpensive tools and supplies available. It will greatly extend your ability to reach wifi access points - well beyond the limits of the dipoles suppliedwith most routers and some wireless adapters. When connected to a typical USB wireless adapter,the performance is excellent. When connected to a high powered wifi adapter,the performance is astounding! Forget about building those overly hyped wifi cantennas - they don'tperform anywhere close to the yagi antennas depicted here. This antenna works best when connected to a wifi adapter, and it works very wellas a single router antenna (to extend the range of an access point). Read more below for instructions and a narrative of how they were designed.

Build a wifi yagi antenna for longer range connections.

If your goal is to get wireless internet from another building and use it indoors, you shouldinstead consider using a wireless bridge. If you want to provde strong wireless internet coverage to an area,but cannot provide a fiber optic or ethernet cable to your wireless router, again consider using a wirelessbridge to substitute for the unavailable cable, and connect the bridge to the router. A wireless bridge is abetter solution for situations such as:

Wireless bridges work like a long run of ethernet without cable...

Providing internet connectivity from one building to users in a remote house or office.
Providing internet connectivity from one highrise building to another across town.
Providing internet connectivity from an onshore location to users on an island.
Sharing connectivity between two locations which can't be linked by cable.

#Advert: Extend your wifi TODAY with a WIRELESS BRIDGE!

If you are interested in building a high gain wifi yagi antenna, continue reading below for the details.

Reach hotspots via window mounting.

Connect through concrete walls!

The 15 element yagi wifi Antenna
dimensions in the W9CF java applet.

The antenna modeler also
lists element lengths and positions.

The yagi wifi antenna design depicted here can be built in just an hour or two, and it works great! It is computer designed, made of wood and wire, and provides high gain and directivity. It is directional - favoring wi-fi signals in one direction and rejecting interference from the sides or behind the antenna. The 15 element wi-fi antenna provides over 15 dB of gain (multiplying your effective radiated power by 31), while the larger 20 element wifi antenna provides over 17 dB of gain (multiplying your effective radiated power power by 51). Front to back ratio for both antennas is about 22 dB.

Yagi wifi antennas can be rather difficult to build, but it can be done if you measure precisely and cut precisely.The hard mathematical design work for the wifi antennas shown here was accomplished elegantly using a yagi antenna modeler, created by Kevin Schmidt (W9CF) and Michael Lee.

The on-line antenna modeler initially starts with several examples tailored for operation in the amateurradio bands. One of the best designs is the classic K1FO yagi. By following a few steps, the antenna can be scaled for the 2.4 Ghz wifi 802.11 b/g/n frequencies:

Start with the 15 or 20 element K1FO 70cm example.
In the 'units' menu, select 'Radians.'
In the 'conductivity' menu, select 'Copper'
In the 'frequency' field, enter 2450 (MHz) for the center of the wifi networking band.
For 'Element Diameter', enter 0.08729 (radians).
Click the 'calculate' button.
In the 'units' menu, select 'millimeters.'
Note that the element diameter perfectly matches 14 gauge wire!
In the file menu, select 'list elements.'

The elements list will show each antenna element, from the reflector (element 1, position zero mm), to the last director. Do not use a different metal or a different diameter of metal for the elements, or performancewill suffer. Changes in element diameter, metal type, or design frequency will need recalculation and the generation of a new elements list. These dimensions work quite well:

**Element data for the 15 Element Yagi Wifi Antenna.**
Element	Length (mm)	Position (mm)
1 (Reflector)	59.61	0.00
2 (Driven Element)	58.55	18.34
3 (Director)	55.20	25.75
4 (Director)	53.62	39.51
5 (Director)	52.38	58.55
6 (Director)	51.68	82.19
7 (Director)	50.97	109.70
8 (Director)	50.62	140.74
9 (Director)	50.26	174.60
10 (Director)	49.91	210.94
11 (Director)	49.56	249.38
12 (Director)	49.21	289.60
13 (Director)	48.85	331.39
14 (Director)	48.68	374.25
15 (Director)	48.50	418.52

**Element data for the 20 Element Yagi Wifi Antenna.**
Element	Length (mm)	Position (mm)
1 (Reflector)	59.96	0.00
2 (Driven Element)	58.91	18.34
3 (Director)	55.56	25.75
4 (Director)	53.97	39.51
5 (Director)	52.73	58.55
6 (Director)	52.03	82.19
7 (Director)	51.32	109.70
8 (Director)	50.97	140.74
9 (Director)	50.61	174.60
10 (Director)	50.26	210.94
11 (Director)	49.91	249.38
12 (Director)	49.56	289.60
13 (Director)	49.21	331.39
14 (Director)	49.03	374.25
15 (Director)	48.85	418.52
16 (Director)	48.68	463.67
17 (Director)	48.50	509.70
18 (Director)	48.32	556.26
19 (Director)	48.15	603.53
20 (Director)	47.97	651.32

Below is a graphic, meticulously adapted by AB9IL from the modeler, which showselement lengths and positions along the boom, measured from the reflector (location zero millimeters). Note that the driven element is depicted in green, and for the wifi yagi project, will be a folded dipole. Why a folded dipole? It provides a good impedance match to coaxial cable when used as the yagi wifi antenna's driven element. In free space, a folded dipole has a 300 ohm impedance at resonance, but the impedance drops drastically when parasitic elements are brought into close proximity.

This high gain wifi antenna can be constructed in a couple of hours and requires some measuring, cutting, bending, and bolting of metal. Use caution around the sharp edges. When finished, put it up and enjoy a very durable antenna that provides outstanding wifi performance.

YAGI Wifi ANTENNA PARTS LIST:

A 1.2 meter length of 14 AWG bare, solid copper wire.
One wooden square, 1 cm per side, 50 cm long (70 cm for the 20 element antenna).
Wire cutters.
Metric ruler.
Drill, with 1.6 mm (1/16') bit.
Printed or written template with antenna dimensions.
Ball point pen or fine felt tipped marker.

YAGI Wifi ANTENNA CONSTRUCTION:

Assemble the yagi wifi antenna following the steps below, starting with preparation of theboom, followed by mounting the elements. After the elements are mounted, a suitable connector is added, and the antenna is tested over-the-air. Keep in mind that it can be connected to most usb wireless adapters by cutting the circuit board antenna trace and patching in a pigtail feeding the antenna.

Draw a line as accurately as possible down the center of one side of the wooden boom.
Mark the boom centerline 5 cm from one end. This is the 'zero location,' where the director element will be mounted.
Continue down the boom, carefully marking the locations of each element on the centerline.
Carefully drill through the boom at each element's location.Make sure to drill straight through the boom, emerging onthe other side still centered and perpendicular.
For a no-drill alternative, carefully cut a perpendicular groove across the boom, to a depthof 2 mm.
Cut one element at a time, carefully measuring each element before and after cutting, trimming as necessary for proper length. File the wire ends and make sure the lengths are as accurate as possible!
Press elements through the boom, centering each before moving to the next element.
If you cut grooves for the elements instead of drilling holes, press the elements into the grooves, and makesure each is straight and centered. Affix them permanently with epoxy.

Element positions marked
on the yagi wifi antenna boom.

The reflector element
after mounting.

For the driven element, cut a 130 mm length of wire, and make a 180 degree bend 30 mm from one end. Mount in boom, then make a bend 30 mm from other end. Adjust as necessary to create a folded dipole just under 59 mm in length with 5 mm spacing.
Double check all elements, making sure all are centered and parallel.
Attach a pigtail (or connector) to open ends of folded dipole.

Folded dipole prior
to mounting in antenna boom.

The driven element
before the last bend.

Two yagi wifi antenna
elements mounted in boom.

After all of the elements are measured, cut, and mounted, the antenna shouldresemble the finished yagi pictured below. Connect the pigtail or connector tothe driven element. Then connect the wi-fi adapteror wireless router to the antenna and start checking over-the-air signal strengths. Note that the antenna may be sensitive to polarization: when the antenna seems to bring in the best signal, rotate it to find the best polarization. Mounting the antenna is possible using commonly available hardware, such as 90 degree angle brackets, U bolts,or even velcro.

Closeup of the wifi yagi feedpoint.
Keep the leads short!

The completed wifi yagi antenna.

YAGI Wifi ANTENNA TESTING:

For the most practical method of signal checking, consider using a wifi auditingutility such as Kismet orSlitaz Aircrack-ng. Either of these will produce a rapidly updated received signal strength indication that is useful for comparing or aiming wifi directional antennas. Make a set of measurements for any desired wi fiaccess points on the original antenna, then make a new set for the yagi wifi antenna.

The antenna should exhibit high forward gain and front-to-back ratio. A prototype in fact performed as well as the wi-fi 12 turn helical antenna shown elsewhere in these pages. Indeed, the antenna exhibits near the theoretical 15 db gain, enabled broadband connections at 54 MB/S overa path that at best reached 11 MB/S on an unmodified wifi adapter. Again,for ultimate performance over long distance wifi links, use a short version of theyagi to feed a parabolic reflector as well as a high powered wifi adapter.

How To Yagi Antenna Wifi

Watch a video the wi fi yagi antenna construction on Youtube:.

Egads! Someone made a very well constructed wifi yagi with a plexiglass boom! Their video adds some hip hop music and slick graphics to showcase this design. It retains attributions and links to this page, so the webmaster ishappy to see it! There are others too! One person, in China, built one and created a smart-phone access point covering a long section of street.

Good luck building the yagi wifi antenna, and may you enjoy solid long range connections!

Tags: Wireless Access, Wifi Antenna, Wifi Booster, Wifi Extender, Wireless Yagi Antenna, Long Distance Wifi Access